1. Ocean Currents The Reality of Sending a Message in a Bottle

2. Ocean Current Layers Surface Currents – upper 10% of the ocean; upper 400 m Surface Currents – upper 10% of the ocean; upper 400 m Pycnocline – the layer between surface and deep waters; where a rapid change in temperature, salinity and density occur Pycnocline – the layer between surface and deep waters; where a rapid change in temperature, salinity and density occur Deep Current – lower 90% of the ocean Deep Current – lower 90% of the ocean

3. Ocean Water Properties How they impact ocean currents How they impact ocean currents Temperature – remember heat rises!Temperature – remember heat rises! Salinity – remember salty water sinks!Salinity – remember salty water sinks! Density – a function of temperature and salinityDensity – a function of temperature and salinity

4. Ocean Surface Temperatures http://www.bigelow.org/shipmates/sstemp_lg.gif

5. Temperature vs. Currents http://earth.usc.edu/~stott/Catalina/Oceans.html

6. Ocean Surface Salinities http://www.bigelow.org/shipmates/salinity_lg.gif

7. Ocean Density http://www.windows.ucar.edu/tour/link=/earth/Water/density.html&edu=high

8. Primary Current Forces These Start the Water MOVING: These Start the Water MOVING: Solar HeatingSolar Heating WindsWinds GravityGravity Coriolis Force/EffectCoriolis Force/Effect

9. Current Forces Explained Sun/solar heating - causes water to expand and move Sun/solar heating - causes water to expand and move Winds - push the water; winds blowing for 10 hrs across ocean will cause the surface water to flow @ ~2% wind speed; wind has the greatest effect on surface currents Winds - push the water; winds blowing for 10 hrs across ocean will cause the surface water to flow @ ~2% wind speed; wind has the greatest effect on surface currents Gravity - pull water downhill or pile against the pressure gradient (high/low); influences tides Gravity - pull water downhill or pile against the pressure gradient (high/low); influences tides

10. Winds http://www-earth.usc.edu/~stott/Catalina/Oceans.html

11. Wind Driven Ocean Currents http://www.bigelow.org/shipmates/hc_currents_lg.gif

12. Current Influences (cont’d) Coriolis effect/force - Force due to the Earth's rotation, capable of generating currents. It causes moving bodies to be deflected to the right in the Northern Hemisphere and to the left in the Southern Hemisphere. The "force" is proportional to the speed and latitude of the moving object. It is zero at the equator and maximum at the poles Coriolis effect/force - Force due to the Earth's rotation, capable of generating currents. It causes moving bodies to be deflected to the right in the Northern Hemisphere and to the left in the Southern Hemisphere. The "force" is proportional to the speed and latitude of the moving object. It is zero at the equator and maximum at the poleshttp://www.csc.noaa.gov/text/glossary.html causes the water to move around the mound of water causes the water to move around the mound of water

13. Surface Currents Surface current – with surface circulation is less dense and influenced by winds Surface current – with surface circulation is less dense and influenced by winds 1.Warm surface currents: wind and Earth’s rotation 2.Cold surface currents: flow towards the equator 3.Upwelling current: cold, nutrient rich; result of wind 4.Western Boundary currents: warm & fast 5.Eastern Boundary currents: broad, slow, cool & shallow, associated with upwelling Ex: Gulf Stream = surface current that is the upper 20% of the ocean, western boundary current Ex: Gulf Stream = surface current that is the upper 20% of the ocean, western boundary current

14. Deep Currents Deep water – cold, dense, salty; move by density forces and gravity; move slower than layers above Deep water – cold, dense, salty; move by density forces and gravity; move slower than layers above Thermohaline Circulation: is global ocean circulation. It is driven by differences in the density of the sea water which is controlled by temperature (thermal) and salinity (haline). In the North Atlantic it transports warm and salty water to the North. There the water is cooled and sinks into the deep ocean. This newly formed deep water is subsequently exported southward. This slow (~0.1 m/s), but giant circulation has a flow equal to about 100 Amazon Rivers. Together with the Gulf Stream it contributes to the comparatively warm sea surface temperature along the coast of western Europe and to the relative mild European winters. Once the water are in the deep, they remain there for up to 1000 years.Thermohaline Circulation: is global ocean circulation. It is driven by differences in the density of the sea water which is controlled by temperature (thermal) and salinity (haline). In the North Atlantic it transports warm and salty water to the North. There the water is cooled and sinks into the deep ocean. This newly formed deep water is subsequently exported southward. This slow (~0.1 m/s), but giant circulation has a flow equal to about 100 Amazon Rivers. Together with the Gulf Stream it contributes to the comparatively warm sea surface temperature along the coast of western Europe and to the relative mild European winters. Once the water are in the deep, they remain there for up to 1000 years.http://www.climate.unibe.ch/~christof/div/fact4thc.html Ex: Global Conveyer Belt = deep current that is the lower 20% of the ocean; takes 1,000 years to complete the cycle Ex: Global Conveyer Belt = deep current that is the lower 20% of the ocean; takes 1,000 years to complete the cycle

15. Global Conveyer Belt Thermohaline circulation links the Earth's oceans. Cold, dense, salty water from the North Atlantic sinks into the deep and drives the circulation like a giant plunger. Thermohaline circulation links the Earth's oceans. Cold, dense, salty water from the North Atlantic sinks into the deep and drives the circulation like a giant plunger. http://www.columbia.edu/cu/record/23/11/13.html Graphic - http://www.grida.no/climate/vital/32.htm http://www.grida.no/climate/vital/32.htm

16. Other Currents Gyres – large mounds of water; large circular currents in the ocean basin Gyres – large mounds of water; large circular currents in the ocean basin Ex: North Atlantic Gyre = consists of 4 separate currents – N. Equatorial, Gulf Stream, N. Atlantic Drift and Canary Currents Ex: North Atlantic Gyre = consists of 4 separate currents – N. Equatorial, Gulf Stream, N. Atlantic Drift and Canary Currents

17. Ocean Currents & Living Things Currents are important to marine life as they help move food and nutrients making them available for photosynthesis, metabolic requirements and or consumption. Currents are important to marine life as they help move food and nutrients making them available for photosynthesis, metabolic requirements and or consumption.